CN111453665B

CN111453665B - Capping system for glass tank filling

Info

Publication number: CN111453665B
Application number: CN202010266428.6A
Authority: CN
Inventors: 刘振勇
Original assignee: Xinyi Mingda Glass Co ltd
Current assignee: Xinyi Mingda Glass Co.,Ltd.
Priority date: 2020-04-07
Filing date: 2020-04-07
Publication date: 2021-11-16
Anticipated expiration: 2040-04-07
Also published as: CN111453665A

Abstract

The invention discloses a capping system for filling glass jars, which structurally comprises a capping box, a lower cap opening, a support rod, a control electric box, an installation shaft, a conveying trough and a main box, wherein the lower cap opening is installed at the bottom of the capping box, the top end of the capping box is arranged on the main box through the support rod, the signal end of the main box is electrically connected with the control electric box, the conveying trough is driven by the main box, the installation shaft is arranged on the conveying trough, the conveying trough is provided with a grid base, a packing auger meshing shaft, a bottle bearing device and a meshing rotating shaft, the packing auger meshing shaft is arranged in the grid base and meshed with the meshing rotating shaft, the meshing rotating shaft is matched with the bottle bearing device, a lower pushing part is arranged after a bottle is fed, the packing auger meshing shaft is meshed with the packing auger, the meshing rotating shaft drives a balance wheel to drive an arc-shaped swing rod to be opened, a jar body is separated while an adsorption cavity is opened, the convolution area of the glass jar is enlarged, and a fan cavity is extruded and matched to form a negative pressure opening to be fixedly adsorbed at the bottom of the glass jar, the bottom of the tank body is fixed by adsorption, so that the tank body is more stable in convolution.

Description

Capping system for glass tank filling

Technical Field

The invention relates to the field of glass jar capping machinery, in particular to a capping system for filling glass jars.

Background

Glass jar liquid filling machine is to producing some liquid processing trades such as beverage, wine, glass jar liquid filling machine adopts the filling of constant volume formula, filling capacity range is big, it is many to be suitable for the bottle type, the characteristics that glass jar has are extensive, it is high to have guaranteed the precision of filling with the filling valve that adopts the graduated flask formula ration, liquid is downflow along the bottle wall during the filling, the foam that liquid impact was stacked when invalid control the filling, avoid liquid excessive, but advancing the bottle in-process, the bottle is located the preceding position of auger and arranges very compactly, cause the bottle can't produce and circle round, thereby lead to easily taking place the condition of broken bottle when advancing bottle to auger department.

Disclosure of Invention

In view of the above problems, the present invention provides a capping system for filling glass jars.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a add lid system for glass jar filling, its structure is including adding lid case, lower cover mouth, branch, control electronic box, installation axle, transfer trough, mainframe box, the lower cover mouth is installed to the bottom that adds the lid case, the top that adds the lid case is passed through branch setting on the mainframe box, the signal end and the control electronic box electric connection of mainframe box, the mainframe box drive is used to the transfer trough, be equipped with the installation axle on the transfer trough, the transfer trough is provided with net base, auger meshing axle, bottle holds ware, meshing pivot, be equipped with auger meshing axle in the net base, auger meshing axle and meshing pivot meshing, meshing pivot and bottle hold the ware cooperation, the bottle holds the ware centre gripping and is fixed in the glass jar.

As a further improvement of the invention, the bottle bearing device comprises a swinging assembly, an upper pushing member, an outer connecting disc, an outer extruding ring, an inner extruding ring and a lower pushing member, wherein the swinging assembly is fixed through a positioning ring, one end of the swinging assembly is connected with the upper pushing member, the other end of the swinging assembly is matched with the lower pushing member, the outer connecting disc, the positioning ring, the outer extruding ring and the inner extruding ring are concentric, the upper pushing member is fixed at the edge of the inner ring of the outer extruding ring, and the lower pushing member is matched with the inner extruding ring.

As a further improvement of the invention, the push-up component and the push-down component are arranged oppositely up and down.

As a further improvement of the invention, the swing assembly comprises two arc-shaped swing rods and a balance wheel, the balance wheel is movably connected with the two arc-shaped swing rods, and a protection pad with the length of 15cm is arranged at the connecting position of the arc-shaped swing rods, the lower pushing piece and the outer extrusion ring, so that the opening effectiveness of the arc-shaped swing rods is realized.

As a further improvement of the invention, the push-up piece comprises a push block and a side adsorption cavity, the push block is in a horn shape, the inward end of the push block is fixed with the side adsorption cavity, and the side adsorption cavity is in contact fit with the glass tank body.

As a further improvement of the invention, the downward pushing piece consists of four fan cavities with the same structure and size and a bonded magnetic edge, and the bonded magnetic edge on the same fan cavity is of different magnetism.

As a further improvement of the invention, the side adsorption cavity is provided with a convex soft edge, a pressure port, a pressure generator and a protective shell, wherein the convex soft edge is arranged on two sides of the pressure port, the pressure port is connected with the pressure generator, and the pressure generator is arranged inside the protective shell.

As a further improvement of the invention, the interior of the fan cavity is a negative pressure cavity, one narrower port of the fan cavity is a negative pressure port, and a circular negative pressure port formed after the fan cavity is contracted is fixedly adsorbed with the bottom of the bottle.

As a further development of the invention, the balance is mechanically connected to the meshing spindle.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the grid base is provided with the bottle bearing device, the push-up piece and the push-down piece arranged on the bottle bearing device are matched with the swinging assembly, when a bottle is sent, the side adsorption cavity in the push-up piece is adsorbed and fixed along the glass can body, and the bottle falling and the bottle feeding faults are effectively avoided when the conveying crawler belt is unstable in conveying.

2. After the lower pushing piece is fed into the bottle, the auger meshing shaft is meshed with the auger, the meshing rotating shaft drives the balance wheel to drive the arc-shaped swing rod to be opened, the side adsorption cavity is separated from the tank body and opened to enlarge the convolution area of the glass tank, the fan cavity is extruded and matched to form a negative pressure port to be adsorbed and fixed with the bottom of the glass tank, and the negative pressure port is adsorbed and fixed from the tank body to be fixed at the bottom, so that the lower pushing piece is more stable in convolution;

the edge adsorption cavity is internally provided with a convex soft edge matched with the pressure port, and the glass tank adsorbed when the pressure port generates pressure is contacted and sunken, so that the tank body is contacted with the convex soft edge, and the cracked tank generated by hard collision is reduced.

Drawings

Fig. 1 is a schematic structural diagram of a capping system for filling glass cans according to the present invention.

FIG. 2 is a schematic view of the internal structure of the transfer chute of the present invention.

FIG. 3 is a schematic top view of the bottle holder of the present invention.

FIG. 4 is a top view of the push-down member of the present invention.

FIG. 5 is a schematic view of the construction of the side adsorption chamber of the present invention.

In the figure: the device comprises a capping box-1, a lower cap opening-2, a support rod-3, a control electric box-4, a mounting shaft-5, a conveying groove-6, a main box-7, a grid base-61, a packing auger meshing shaft-62, a bottle bearing-63, a meshing rotating shaft-64, a swinging assembly-631, an upper pushing piece-632, an external connecting disc-633, an external extruding ring-634, an internal extruding ring-635, a lower pushing piece-636, an arc oscillating bar-311, a balance wheel-312, a pushing block-321, an edge adsorption cavity-322, a fan cavity-361, a bonded magnetic edge-362, a convex soft edge-22 a, a pressure opening-22 b, a pressure generator-22 c and a protective shell-22 d.

Detailed Description

In order to make the technical means, the creation features, the achievement objects and the effects of the present invention easy to understand, fig. 1 to fig. 5 schematically show the structure of a capping system according to an embodiment of the present invention, and the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

As shown in fig. 1-4, the invention provides a capping system for glass can filling, which comprises a capping box 1, a lower cap opening 2, a support rod 3, a control electric box 4, an installation shaft 5, a transmission groove 6 and a main box 7, wherein the lower cap opening 2 is installed at the bottom of the capping box 1, the top end of the capping box 1 is arranged on the main box 7 through the support rod 3, the signal end of the main box 7 is electrically connected with the control electric box 4, the transmission groove 6 is driven by the main box 7, the installation shaft 5 is arranged on the transmission groove 6, the transmission groove 6 is provided with a grid base 61, an auger meshing shaft 62, a bottle bearing device 63 and a meshing rotating shaft 64, the auger meshing shaft 62 is arranged in the grid base 61, the auger meshing shaft 62 is meshed with the meshing rotating shaft 64, the meshing rotating shaft 64 is matched with the bottle bearing device 63, the bottle bearing device 63 is clamped and fixed on a glass can, the bottle bearing device 63 comprises a swinging component 631, an upper pushing component 632, an external connecting disc 633, an external pushing ring 634, an internal pushing ring 635 and a lower pushing component 636, wherein the swinging component 631 is fixed by a positioning ring, one end of the swinging component is connected with the upper pushing component 632, the other end of the swinging component is matched with the lower pushing component 636, the external connecting disc 633 is concentric with the positioning ring, the external pushing ring 634 and the internal pushing ring 635, the upper pushing component 632 is fixed at the inner ring edge of the external pushing ring 634, the lower pushing component 636 is matched with the internal pushing ring, the upper pushing component 632 and the lower pushing component 636 are oppositely arranged up and down, the swinging component 631 comprises an arc swinging rod 311 and a balance wheel 312, the arc swinging rod 311 is provided with two parts and movably connected by the balance wheel 312, a protection pad with the length of 15cm is arranged at the position where the arc swinging rod 311 is connected with the lower pushing component 636 and the external pushing ring 634, the effectiveness of opening of the arc swinging rod 311 is realized, the upper pushing component 632 comprises a pushing block 321 and an adsorption cavity 322, the pushing block 321 is horn-shaped, a side adsorption cavity 322 is fixed at the inward end of the pushing block 321, the side adsorption cavity 322 is in contact fit with the glass can body, the lower pushing piece 636 consists of four fan cavities 361 with the same structure and size and a fitting magnetic edge 362, the fitting magnetic edge 362 on the same fan cavity 361 is different magnetic, a negative pressure cavity is arranged inside the fan cavity 361, a negative pressure port is arranged at the narrower port of the fan cavity 361, a round negative pressure port formed after the fan cavity 361 is contracted is fixedly adsorbed with the bottom of a bottle, the balance wheel 312 is mechanically connected with the meshing rotating shaft 64, an upper pushing piece and a lower pushing piece which are arranged on the bottle bearing device are matched with the swinging component, when the bottle is sent, the side adsorption cavity in the upper pushing piece is adsorbed and fixed along the glass can body, the bottle falling is effectively prevented from preventing the bottle from being failed when the conveying crawler belt is unstable, the auger meshing shaft is meshed with the auger, the rotating shaft drives the balance wheel to drive the arc-shaped swinging rod to open, the adsorption cavity is used for separating the tank body while the adsorption cavity is opened to enlarge the convolution area of the glass tank, the fan cavity is in extrusion fit to form a negative pressure port to be fixed with the bottom of the glass tank in an adsorption mode, and the tank body is fixed at the bottom in an adsorption mode, so that the tank body is more stable in convolution.

Example 2

As shown in fig. 5, the side adsorption cavity 322 is provided with a convex soft edge 22a, a pressure port 22b, a pressure generator 22c and a protective shell 22d, the convex soft edge 22a is arranged on two sides of the pressure port 22b, the pressure port 22b is connected with the pressure generator 22c, the pressure generator 22c is installed inside the protective shell 22d, the convex soft edge is arranged in the side adsorption cavity and matched with the pressure port, and the adsorbed glass can contacts with the concave when the pressure port generates pressure, so that the can body contacts with the convex soft edge, and the can cracking caused by hard collision is reduced.

The working principle of the capping system in the above technical solution is explained as follows:

when the present invention is used for feeding a bottle, a glass can is placed in the bottle receiver 63, that is, when the packing auger is not inserted, as shown in fig. 4, the swinging component 631 is not operated, the side adsorption cavity 322 in the push-up piece 632 is adsorbed and fixed with the glass can body, the side adsorption cavity 322 is provided with a convex soft edge matched with a pressure port, the adsorbed glass can contacts with a concave when the pressure port generates pressure, the can body is contacted with the convex soft edge, the cracked can generated by hard collision is reduced, and the lower push piece 636 is opened, so as to ensure the stability when the bottle is fed, the packing auger meshing shaft 62 is meshed with the packing auger, the meshing rotating shaft 64 is driven to drive the balance wheel 312, the outer squeezing ring 634 connected with the arc-shaped swing rod 311 is opened, as shown in fig. 3, four fan-shaped cavity bodies with the same structure and size are pushed by the arc-shaped swing rod 311 to move oppositely, so as to form a negative pressure port matched with the bottom of the glass can, and the side adsorption cavity 322 is separated from the can body, the side adsorption fixation is changed into bottom adsorption fixation, so that the stability in bottle feeding is not hindered, the convolution area of the glass jar can be enlarged, a large enough convolution space is ensured to be generated in the bottle, and the stability of pressing connection is improved by the bonding magnetic edges 362 of the adjacent sides of the fan cavity 361 and the sides of the fan cavity are different in magnetism.

In the description of the present invention, it is to be understood that the terms "central," "lateral," "length," "width," "height," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "side," and the like, as used herein, are used in an orientation or positional relationship indicated in the drawings, which is for convenience and simplicity of description, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and is not to be construed as limiting the invention.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

Claims

1. A capping system for glass can filling, comprising: the structure of the device comprises a capping box (1), a lower cover opening (2), a support rod (3), a control electric box (4), an installation shaft (5), a transfer trough (6) and a main case (7), wherein the lower cover opening (2) is installed at the bottom of the capping box (1), the top end of the capping box (1) is arranged on the main case (7) through the support rod (3), the signal end of the main case (7) is electrically connected with the control electric box (4), the transfer trough (6) is driven by the main case (7), the installation shaft (5) is arranged on the transfer trough (6), the transfer trough (6) is provided with a grid base (61), an auger meshing shaft (62), a bottle bearing device (63) and a meshing rotating shaft (64), the auger meshing shaft (62) is arranged in the grid base (61), the auger meshing shaft (62) is meshed with the meshing rotating shaft (64), and the meshing rotating shaft (64) is matched with the bottle bearing device (63), the bottle holder (63) is clamped and fixed on the glass pot;

the bottle holder (63) is composed of a swing assembly (631), an upper pushing member (632), an external connecting disc (633), an outer pushing ring (634), an inner pushing ring (635) and a lower pushing member (636), wherein the swing assembly (631) is fixed through a positioning ring, one end of the swing assembly is connected with the upper pushing member (632), the other end of the swing assembly is matched with the lower pushing member (636), the external connecting disc (633) is concentric with the positioning ring, the outer pushing ring (634) and the inner pushing ring (635), the upper pushing member (632) is fixed on the inner ring edge of the outer pushing ring (634), and the lower pushing member (636) is matched with the inner pushing ring (635);

the upper pushing piece (632) and the lower pushing piece (636) are arranged oppositely up and down;

the swing assembly (631) comprises two arc-shaped swing rods (311) and a balance wheel (312), the two arc-shaped swing rods (311) are movably connected through the balance wheel (312), and a protection pad with the length of 15cm is arranged at the position where the arc-shaped swing rods (311) are connected with the lower pushing piece (636) and the outer extrusion ring (634);

the push-up piece (632) comprises a push block (321) and an edge adsorption cavity (322), the push block (321) is horn-shaped, the edge adsorption cavity (322) is fixed at the inward end of the push block (321), and the edge adsorption cavity (322) is in contact fit with the glass tank body;

the downward pushing piece (636) consists of four fan cavities (361) with the same structure and size and an attached magnetic edge (362), and the attached magnetic edge (362) on the same fan cavity (361) is different in magnetism.

2. A capping system for filling glass jars as claimed in claim 1 wherein: the side adsorption cavity (322) is provided with a convex soft edge (22a), a pressure port (22b), a pressure generator (22c) and a protective shell (22d), the convex soft edge (22a) is arranged on two sides of the pressure port (22b), the pressure port (22b) is connected with the pressure generator (22c), and the pressure generator (22c) is arranged inside the protective shell (22 d).

3. A capping system for filling glass jars as claimed in claim 1 wherein: the inside of fan cavity (361) is the negative pressure chamber, is the negative pressure mouth at the narrower port of fan cavity (361), the circular negative pressure mouth that forms after fan cavity (361) shrink is fixed with the bottom absorption of bottle.